Attachment for cutting tables



July l0, 1951 T. McDowELl.

ATTACHMENT FOR CUTTING TABLES 6 Sheets-Sheet 1 Filed Dec. 13, 1946 Rm. m.

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INVENTOR. -770/1/25' /1/c Don/f1.1.

WN MN SAWN 6 Sheets-Sheet 2 vii T. MCDOWELL -ATTCI--HVIENT FOR CUTTING TABLES July 10, 1951 Filed Dec. l5, 1946 INVENTOR. W40/MJ /Wca waz L July lo, 1951 T. MCDOWELL 2,559,982

ATTACHMENT FOR CUTTING TABLES Filed Deo. 15, 1946 6 Sheets-,Sheet 3 July 10, 1951 T MGDOWELL 2,559,982

ATTACHMENT FOR CUTTING TABLES Filed Dec. 13, 1946 6 Sheets-Sheet 4- I ll Il IN VEN TOR. fav/V45 //Co n/ZL July 10, 1951 T. MGDowELL ATTACHMENT FOR CUTTING TABLES 6 Sheet's-Sheet 5 Filed Dec. 13, 1946 WC HE lum...

vT. MCDOWELL ATTACHMENT FOR CUTTING TABLES July 10, 1951 6 Sheets--ShevefI 6 Filed Dec. l5, 1946i Patented July l0, i951 UNITED STATES PATENT j OFFICE 2,559,`982

ATTACHMENT FOR CUTTING TABLES Thomas McDowell, Mount Vernon, Ohio, assigner I to Pittsburgh Plate Glass Company, Allegheny County, Pa., Ia .corporation of Pennsylvania Application December 13, 1946, Serial No. 715,958

' (ci. ganso) 12 Claims.

This invention relates tothe manual cutting of sheet glass audit has particular `.relation to vcutting tables adapted to facilitate the cutting of glass sheets vto dimensions involving fractional measurements, as well as conventional unit measurements.

One object of the invention is to provide van improved cutting tablerupon which an operator can make adjustments forcutting glass to widths and lengths .measured Vin 'inches and/ or fractions of inches, or other units 'of measurements in conjunction with the use of a straightedge type of cutting rule.

Another object of the invention is to provide an improved arrangement and mounting for socalled gauging projections-employed in Vsetting a straightedge rule in manually cuttingsheet glass on tables.

Another object o'f the invention is to provide an improved set or sets of attachments detachably mountable upon standard cutting .tables and adapted to be adj-usted for fractional :cutting of glass sheets without 'materially changing theconventional operations practiced `in using convene tional strai'ghtedgefcutting rules.

Another object of the invention is to provide an improved gauging attachment vadjustable upon conventional glass cutting tablesvior simplifying the'cutting of sheet glass into various-dimensions including fractional dimensions.

In the drawing:

Figure l is a fragmentary rdiagrarrim'atic plan of a cutting table with` fractional adjusting de vices mounted thereon; Figure 2 is ,a fragmentary plan, on a larger scale, showing .in detail the mounting of fractional cutting devices `upon a table.; Figure 3 is a fragmentary view, partiallyin vertical section and partially in front elevation, the section being taken substantially along the line III--III of Figure 2; Figure 4 is anend-eleva'- tion of 'the structure shown in Figure 3; Figure 5 is a front elevation of the device shown inthe Alower portion of Figure 2; Figure 6 .is an 'end elevation of the device shown in Figure y5; Figure 7 is a plan 'of an auxiliary device similar to that shown in Figure 3 for attachment to the upper rear portion of a cutting table; Figure 8 is an end elevation of the device shown in Figure 7;

lFigure 9 is a plan of an auxiliary device similar to that shown in Figure 5 for attachment to the lower or front portion of a cutting table; Figure 10 is a front elevation of the structure shown in Figure 9; Figure 1l is -a fragmentary plan similar to Figure 2 and in which other forms of devices Aare shown; Figure 12 is an endelevationiof the the cutting table shown in Figure 11; Figure -13 is an end elevation of one of the devices lat the lower or .front edge of thecutting table; Figure l is a fragmentary Vdiagrammatic plan of another .form of cutting `table .with fractional adjusting devices :mounted ithereon.; Figure 15 is a fragmentary end elevation, on a `larger scale, of :the structure shown in Figure 14; and Figure 16 a fragmentary plan of an :upper or rear portion `of the cutting table.

In practicing the invention therelis provided a. platform or table 2B having an upper or .rear marginal rail 2l rigidly .mounted thereon. A lower rail 23 is rigidly mounted along the lower marginal portion ofthe table. Theupper rail iS .formed with a Vrow of upwardly disposed rulegauging ,projections 213 spaced `uniformly according to unit measurements, for example, accord-.- ing to one inch units or one centimeter units. A second row of horizontally disposed rule-,gauging projections 25 .formed on the lower rail v23 is parallel to the upper row of projections 24, but the respective individual pins `of the two rows are disposed at right langles to one another. This arrangement and Vstructure of the table is more or less standard'.

Upper fractional adapters y26, which .ca -n be referred to as tip plugs, are disposed demountably upon the row ofeprojecti'ons 2li.` Each adapter (Figures 2 to 4) comprises afbar Sli formed with a row of parallel openings 3| which are spaced uniformly according to the spacing of the projections and are sufliciently large to receive a plurality of these projections in snugly tting relation. The length of each projection v2.4 is slightly less than the length or depth of the openings 3l. Y p

One side of each adapteris formed with an undercut or-dovetail groove 32 and from the bot tom of this groove `thefbar is cut to form a slit 3.4

extending toa line adjacent the side of the bar e of these bolts can be threaded into any of the sections 39 and tightened to draw the walls of the bar toward each other for the purpose of constricting the groove 32.

Dovetail blocks 4| (Fig. 4) are freely slidable in the groove 32 of each bar until the bolts 40 are tightened to draw the walls of the groove tightly against the blocks and thereby to anchor them rigidly. Each block 4| is formed with shoulders 42 which ride upon the outer side of the bar adjacent the groove. Each block (Fig. 2) is also formed with an integral rule-gauging projection 43 that has a vertical iiat face 45 disposed at right angles to the row of projection receiving openings 3|. The block 4| is also formed with a bias cut projection 46 that has a vertical face 4l disposed at an angle of approximately 45 to the face 45. An index mark 49 aligned with the vertical face 45 on each block is alignable with any of the graduations 50 defining a scale that is impressed upon the upper side of the bar 30. At the front or lower edge of the table 20 front adapters 5| (Figs. 5 and 6), which can be referred to as hook plugs, are constructed similarly to the rear adapters 26. Each of these front adapters has a dovetail groove 53 and a slit 54 running longitudinally of a bar 56 which constitutes the body of the adapter. Openings 51 traverse the slit to receive bolts 59 in the same manner as the bolts I46 are received in the rear adapter 26, and a resilient neck 60 defined by the slit 54 can be sprung by tightening the bolts. The projection receiving openings 6| formed in each bar 56 are spaced according to the spacing of the front projections 25 which t snugly therein. These projection receiving openings are bored substantially in the plane of the slit 54 and in parallel relation according to the arrangement of the front projections 25, as clearly indicated in Figure 5.

Thumb screws '62 are screw threaded transversely in each end portion of the bar 56 so as to engage in locking relation against the projections 25 and at right angles thereto. These thumb screws are thus locked upon two of the pins 25 at the end portions of each bar 56 and prevent accidental displacement of the bar from the pins 25.

Dovetail blocks 63 lit into the dovetail grooves 53 for free movement longitudinally thereof un- -til the bolts 59 are tightened to anchor them rigidly. Shoulders 64 are formed on the blocks `to ride upon the front'side of the grooved bar as the blocks slide in the grooves. Each block 63 vis formed with a rule-engaging projection 65 which cooperates with a rule 61 and with the upper rule-engaging projections 43 in properly positioning the rule upon the table for a cutting operation. A bias cut upper portion 69 of the rule constituting a tip at its far end fits against the faces 45 and 41 of the block 4| and the lower or rear portion of the rule has an angular plate 10 rigidly secured thereon, as indicated at This plate constitutes a hook adjacent the handle end of the rule and includes a downwardly disposed iinger 12 that is adapted to iit against any of the projections 65. A mark 13 on each block 63 is aligned with the right hand side of the projection 65 thereon and is alignable with any of the graduations 14 defining a scale that is impressed upon the upper side of the bar 56.

In cutting glass sheets to certain predetermined dimensions an operator may require auxiliary rear adapters 15 which are formed with 'responding to the projection 43.

shorter bars 16 (Figs. '1 and 8) and are provided with only one rule engaging projection cor- These auxiliary adapters are formed with dovetail grooves 82, slits 84, rows of openings 85, bolts 86, and rule gauging blocks 81 which correspond to the grooves 32, slits 34, rows of openings 3|, bolts l40 and blocks 4|, respectively, and function in substantially the same manner.

Likewise, auxiliary front adapters are formed with dovetail grooves 92, slits 94, rows of openings 95, bolts 96, rule gauging projections 91, and blocks 9B, which correspond substantially to the grooves 53, slits 54, rows of openings 6|, bolts 59, rule gauging projection 55, and blocks 63, respectively and function in substantially the same manner. Thumb screws 99 are also threaded into the adapters in alignment with one of the openings 05 to lock the adapters upon the projections 25.

Referring to Figs. 1l to 13 the same table 20 to which the other adapters are applied is adapted to receive additional forms of rear and front adapters |00 and |0| which can be substituted for the adapters 26 and 5|, respectively. The rear adapter |60 includes a dovetail groove |02, a slit |03, a row of openings |04, bolts |65, a gauging projection |06, and a block |01, which correspond to the dovetail groove 32, slit 34, openings 3|, bolts 40, gauging projection 43, and blocks 4|, respectively, and function in substantially the same manner. In this construction a bolt |69 having a bearing head ||0 is threaded, as indicated at ||2, into the rear adapter structure at one end portion thereof and in a horizontal direction at right angles to the groove |02. A threaded horizontal rod ||3 has one of its ends rotatably mounted in the hollow bearing head ||0 and is provided with a shoulder ||4 which prevents the rod from being displaced in one direction in the bearing head. A. lock nut ||5 on the rod and disposed on the other side of the bearing head completes the mounting of the rod which is thus rotatable but cannot slide axially in this head. The end portion of the rod opposite the bolt |09 is threaded, as indicated lat ||6, through the block |01, and by applying a tool to the rod it can be turned to move the block longitudinally in the dovetail groove so as to position it at any desired location along the adapter.

The front adapter |0| (Fig. 13) includes a dovetail groove |22, a slit |23, openings |24, bolts |25, a gauging projection |26, and a block |21 which correspond to the dovetail groove 53, slit 54, openings 6|, bolts 59, gauging projection 65 and block 63, respectively, and function in substantially the same manner. The front adapter |0| is provided with a bolt |28 that is formed with a bearing head |29 and is connected to an adjusting rod |30 that is screw threaded in the block |21 all mounted for operation in the same manner as the bolt |09, adjusting rod ||3 and block |61, respectively, of the adapter |60 and therefore does not require further description.

In the form of the invention shown in Figs. 14 to 16 a cutting'table |3| has a rear adapter |32 which extends along the rear marginal portion of the table and is rigidly secured to an angle plate |33 by means of fasteners |34. This plate is likewise rigidly secured to the body of the table by means of conventional fasteners |35. 'I'he adapter |32 is constructed similarly to the adapter 26 except that it is longer .and includes a dovetail groove |42, a slit |44, a resilient neck gases-2 |45, bolts |55, gauging projections |53 and blocks |54 which correspond substantially to the dove= tail groove 32, slit 34, resilient neck 35, bolts '40, gauging projections '43, blocks '41, respectively, shown in Figures 1,'2and 3.

In Figs. 14 to 16 the gauging projections exe tend vintegrally in an upward directionon each block |55 and each block is formed with two of these projections which are suitably spaced so as to receive the bias cut end of the 'rule 61 in substantially the'same manner as theprojec'- tions 43 receive it.

A front adapter 16| extends along the front marginal portion of the' table 'and is rigidly secured to an angle plate |52 by means of "fasteners |64. This angle plate is likewise rigidly secured to the body of the table by means of conventional fasteners |65. The adapter `|6| is constructed similarly to the adapter 5| 'except that it is longer and it includes a dovetail groove Y|12, a slit |14, a resilient neck |15, bolts 185, rule gauging projections |83, and blocks '|B4 which correspond tothe dovetail groove 53, slit 54, resilient neck 513, bolts 59, gauging projections'li, and blocks 63, respectively'as shown 'in Figs. 1, 2 `and 3.

If desired the right and left end marginal portions of the table (Fig. 14) can be provided with adapters |85 and |85 which correspond tothe rear and front adapters |32 and 16|, respectively.

blocks |54 previously described with reference ll to the adapter |32. Likewise, the left hand adapter |86 includes `a dovetail groove 2 I2, a slit 214, bolts 220, projections 223, blocks 224, and supporting angle plate 225, which are identical in 'function and arrangement to the groove |12, slit |14, bolts |62, gauging projections |83, blocks |84, and angle plate |62 previously described and therefore these elements require no further description for complete understanding of 'their structure and function. As shown in Fig. 15 the angle plates |62 and 225 are notched as indicated at 226 and 221, respectively, to facilitate access to the bolts |85 and '220 in adjusting them.

From the foregoing description it will be apparent that various gauging 'projections shown in the drawing can be adjusted to position the rule at selective locations Awhere it serves to guide the cutter in scoring the sheets according rto the lengths and Widths and determined by various fractional measurements.

In connection with one of the methods of manually cutting glass upon tables 'the glass sheet is gauged or squared at one side of the table fcrthe rst lines of cutting and then the glass is turned through van angle of 90`in the plane of 'the table top for the second series of lines of cutting. By employing 'the adapters described above a great variety of rectangular forms can be cut. HOW- ever, in the event it is desired to cut glass 'to a rectangular form with only a small fractional l operator is to make successively several so-.called stripping cuts along parallel lines before turning the glass.

After the stripping cuts are Ymade and the glass Likewise, in `cutting glass to `certain measurements the practice of the has -been tur-ned through an angle :of 90" as indii cated above for the second vseries of cuts which 'are `called'pan-ing cuts, certain ofv the latter may Yoccur so close to one or more locations of the `stripping cuts that the gauging projections cannotlbe set to 'conform to both sets of cuts without further adjustment. These odd `sizes are somewhat rare vbut they are described to explain certain -diiliculties which arise occasion- Lia ally in cutting glass. In order to avoid such. unusual conflicts in the location of the lines offthecutting, the additional adapters |85 and |186-are mounted upon the right and left hand sides of the table V(Fig. 14). Since these additional adapters are provided with gauging .projections 2|'i3wand 223 which correspond to the projections |53 and |83, respectively, and are mounted -for operation in the'same manner, the cutting of odd sizes of glass which might otherwise result in conflict as to the placing of the projections is greatly simplified. The lstraight edge rule vis applied to the glass -at 90 to `the first 'stripping lines of cutting. That is, after properly setting the gauging projections, the straight edge `r-ule 4is applied across the table from the left to the right sides thereof instead of turning the glass through an angle of 90.

Although only illustrative forms of the invention have been lshown and described in detail it will .be apparent to those skilled in the art `that the invention is not so limited but that various changes can be made therein without departing from the spirit'or the sco-pe of the invention as exemplied in the appended claims.

I claim:

1. A fractional cutting attachment for a glass cutting table having `regularly spaced vrule gauging projections 'thereon 'disposed in rows adjacent opposite edges of said table, comprising a member having `a series of openings therein spaced in a row according to the spacing of vsaid projections for receiving a plurality of said projections therein, said member having a guide'therein parallel to said row of openings, a slide 'adjustable in said guide and having a projection thereon adapted to gauge the position of a Yglass cutting rule, and means lfor positively securing the slide at various positions along the guide.

2. A fractional cutting attachment for a glass cutting table having regularly spaced rule-gauging pins thereon disposed in rows adjacent opposite ledges of said table, comprising a bar having therein a groove of dovetail configuration in cross section, said groove extendinglongitudinally of lthe tbar., a Wall portion yof vthe bar adjacent the groove being resilient and springable tovary'the width of the groove, rule-gauging projections 'having dovetail base .portions slidable in said groove, and :groove constricting means en- .gageable with opposite wall portions of thebar to draw the ywalls of said groove in locking relation vupon opposite sides of `said base portions, said bar having pin receiving openings extending Atherethrough transversely of the groove in spaced relation corresponding to the lspacing 'of the 'ruleegauging pins onthe table Vand the latter pins being engageable in said pin receiving openingsto secure the bar on the table.

3. A vfractional cutting 'attachment for a glass cutting table having regularly spaced rule-gauging pins thereon disposed in rows adjacent oppo- 'si-te edges of said table, comprising a bar having vtherein a groove of dcvetail configuration 'in cross section, said groove extending longitudinally` of the bar, a wall portion of the bar adjacent the groove being slit to deiine a resilient neck springable to vary the width of the groove, rule-gaug- -ing projections having dovetail base portions slidable in said groove, a bolt loosely traversing a wall portion oi the bar from one side of the slit portion and being screwthreaded into the wall .portion oi the other side of the slit portion to draw the walls of said groove in locking relation upon opposite sides of said base portions, said bar having pin receiving openings extending therein transversely of the groove in spaced relation corresponding to the spacing oi the rulegauging pins on the table and the latter pins being engageable in said pin receiving openings to secure the bar to the table.

4. A fractional cutting attachment for a glass .cutting table having regularly spaced rulegauging pins thereon disposed in rows adjacent opposite edges of said table, comprising a bar having a'groove extending longitudinally thereof, a wall portion of the 'oar adjacent the groove being resilient and springable to vary the width of the groove, rule-gauging projections having base portions slidable in said groove, groove constricting means engageable with opposite wall portions of the bar to draw the walls of said groove in locking relation upon opposite sides of said base portions, said bar having pin receiving openings extending therein transversely of the -groove in spaced relation corresponding to the spacing of the rule-gauging pins on the table and the latter pins being engageable in said pin receiving openings to secure the bar to the table.

5. A fractional cutting attachment for a glass cutting table having regularly spaced rule-gauging pins thereon disposed in` rows adjacent opposite edges of said table, comprising a bar having therein a groove extending longitudinally of fthe bar, a wall portion of the -bar adjacent the groove being slit to define a resilient neck springable to vary the width of the groove, rule-gauging projections having base portions slidable in said groove, a bolt loosely traversing a wall por- 'tion of the bar from one side of the slit portion and being screwthreaded into the wall portion 'of the other side of the slit portion to draw the walls o said groove in locking relation upon opposite sides of said base portions, said bar f having pin receiving openings extending therein transversely of the groove in spaced relation corresponding to the spacing of the rule-gauging pins on the table and the latter pins being engageable in said pin receiving openings to secure the bar to the table.

6. For use with a standard glass cutting table having spaced pins at opposite edges thereof and a standard cutting rule having a tip at its far end and a hook near its handle end, a variable fraction plug device comprising a pair of plugs including a tip plug and a hook plug, said plugs adapted to engage the tip and hook respectively of the cutting rule, said plugs each having slide .blocks constructed and arranged to receive the tip and hook` respectively of the rule and slidably `mounted in their respective plugs, a fraction scale and index between the plugs and their lrespective slide blocks for indicating fractional positions of the slide blocks between the pins, and means for holding the slide blocks in adjusted position.

'7. For use with a standard glass cutting table having spaced pins at opposite edges thereof and a standard cutting rule having a tip at its far end and a hook near its handle end, a variable fraction plug device comprising a pair of plugs including a tip plug and a hook plug, said plugs adapted to engage the tip and hook respectively of the cutting rule, said plugs each having slide blocks constructed and arranged to receive the tip and hook respectively of the rule and slidably mounted in their respective plugs, a fraction scale and index between the plugs and their respective slide blocks for indicating fractional positions of the slide blocks -between the pins, and means for holding the slide blocks in adjusted position, said plugs having holes directed transversely thereof to receive therein a plurality of said spaced pins of the cutting table, at least one oi said plugs having means to bind it upon said table.

8. For use with a standard glass cutting table having spaced pins at opposite edges thereof and a standard cutting rule having a tip at its far end and a hook near its handle end, a variable fraction plug device comprising a pair of plugs including a tip plug and a hook plug, said plug adapted to engage the tip and hook respectively of the cutting rule, said plugs each having slide blocks constructed and arranged to receive the tip and hook respectively of the rule and slidably mounted in their respective plugs, a fraction scale and index between the plugs and their respective slide blocks for indicating fractional positions of the slide blocks between the pins, and means for holding the slide blocks in adjusted position, said plugs having holes directed transversely thereof to receive therein a plurality of said spaced pins of the cutting table, at least one of the plugs having means in bindable engagement with one of said pins to secure said one of the plugs upon the table.

9. For use with a standard glass cutting table having spaced pins at opposite edges thereof and a standard cutting rule having a tip at its far end and a hook near its handle end, a variable fraction plug device comprising a pair of plugs including a tip plug and a hook plug, said plugs adapted to engage the tip and hook respectively of the cutting rule, said plugs each having slide blocks constructed and arranged to receive the tip and hook respectively of the rule and slidably mounted in their respective plugs, a fraction scale and index between the plugs and their respective slide blocks for indicating fractional positions of the slide blocks between the pins, and means for holding the slide blocks in adjusted position, said plugs having holes directed transversely thereof to receive therein a plurality of said spaced pins of the cutting table, at least one of the plugs having a set screw threaded therein in bindable engagement with one of said pins to secure said one of the plugs upon the table.

10. For use with a standard glass cutting table having spaced pins arranged in rows at opposite edges of the table and in cooperable relationship with a cutting rule having a tip at its far end and a hook near its handle end bars disposed on opposite edge portions of the table and having longitudinal grooves formed therein, said bars having resilient Wall portions between opposite ladjustable longitudinally in the grooves to distribute the projections at desired spaced positions along the bars, groove constricting means on each bar operable to draw the walls of the groove in locking relation upon the base portions therein, each bar having pin receiving openings extending therein transversely of the groove in spaced relation corresponding to the spacing ofV the rule gauging pins on the table and the latter pins being engageable in said pin receiving openings to position the bars on the table.

11. For use with a standard glass cutting table having spaced pins arranged in rows at opposite edges of the table and in cooperable relation with a cutting rule having a tip at its far end and a hook near its handle end; adapter bars disposed on opposite edge portions of the table, each bar having a groove extending longitudinally therein and having a, slit intersecting the groove and extending toward but short of the outer side ofthe bar thereby dening a resilient neck in the bar opposite the groove opening, rule gauging tip projections and hook projections carried by the bars at opposite edge portions of the table and engageable with the tip and hook respectively of the cutting rule in gauging the position of the rule across the table, said tip projection and hook projection having base portions slidably adjustable in the grooves longitudinally of the latter to distribute the projections at desired positions along the bars, groove constricting means on each bar operable to draw the walls of the groove in locked relation upon the base portion of the projection against the resiliency of the neck portion, each bar having pin receiving openings extending therein transversely of the groove in spaced relation corresponding to the spacing of the rule gauging pins on the table and the latter pins being engageable in said pin receiving openings to position the bar on the table.

12. For use with a standard glass cutting table having spaced pins arranged in rows at opposite edges of the table and in cooperable relation with a cutting rule having a tip at its far end and a hook near its handle end; parallel adapter bars mounted along opposite marginal portions of the cutting table, each bar including a groove running longitudinally of the bar, rule gauging tip pins and hook pins in bars at opposite edge portions of the table and engageable with the tip and hook respectively of the cutting rule, said tip and hook pins having base portions slidable longitudinally in said grooves for adjustment therein, each bar having a slit at the bottom of the groove opposite the mouth of said groove and extending toward the side of the bar opposite the groove and deiining a resilient bar area permitting the sides defining the groove to be closed upon the base of the rule gauging pin, and fastening means extending slidably through each bar on one side of the slit and screw threaded into the bar on the other side of the slit in intersecting relation to said slit and outside the area of the groove.

THOMAS MCDOWELL.

REFERENCES CITED The following references are of record in the iile of this patent:

UNITED STATES PATENTS Number Name Date 368,928 Buck Aug. 30, 1887 1,532,910 McCann Apr. 7, 1925 1,663,248 Fritsch Mar. 20, 1928 1,834,143 Collard et al. Dec. 1, 1931 1,946,356 Owen Feb. 6, 1934 1,996,386 Owen Apr. 2, 1935 2,104,301 Haughey Jan. 4, 1938 2,445,533 Mondron et al July 20, 1948 FOREIGN PATENTS Number Country Date 137,501 Great Britain Jan. 15, 192,0 

